大型中央空调水加湿系统多孔分配管路流动均匀性优化研究

doi:10.3976/j.issn.1002-4026.2025088

山东科学

• 能源与动力 •

大型中央空调水加湿系统多孔分配管路流动均匀性优化研究

王吉平¹，廖克存¹，陈国富^1*，曹凯¹，孟光范²

1.山东中烟工业有限责任公司青岛卷烟厂，山东青岛 266100； 2. 齐鲁工业大学（山东省科学院），山东济南 250353

收稿日期:2025-08-27 接受日期:2025-09-25 上线日期:2026-02-05
通信作者: 陈国富 E-mail:15621439721@ 163.com
作者简介:王吉平（1971-），男，硕士，工程师，研究方向为机械设计，E-mail：wangjiping@sdgy.yc
基金资助:
山东中烟工业有限责任公司科技项目（JL-JS 01 029）

Optimization of flow uniformity in multioutlet pipes for large-scale Central-Air-Conditioning water humidification systems

WANG Jiping¹, LIAO Kecun¹, CHEN Guofu^1*, CAO Kai¹, MENG Guangfan²

1. Shandong China Tobacco Industry Co. Ltd., Qingdao Cigarette Factory, Qingdao 266100, China; 2. Qilu University of Technology, Shandong Academy of Sciences, Jinan 250353, China

Received:2025-08-27 Accepted:2025-09-25 Online:2026-02-05
Contact: CHEN Guofu E-mail:15621439721@ 163.com

摘要/Abstract

摘要： 针对大型中央空调水加湿系统负荷大、加湿不均匀、易凝雾的特点，采用FLUENT进行数值模拟，建立了相对于沿程泄流多孔管路的垂直供应、水平供应（五孔、对称分布六孔）的模拟模型。基于流体体积模型VOF，研究了湿蒸汽在上述结构中的输运特性，研究了不同体积分数下管路内部沿程泄流的压力、流速以及密度分布，讨论了不同工况下的蒸汽出流均匀性。研究发现垂直供应管路压力分布由入口逐渐增大，水平供应管路入口处压力较大，两侧压力较低，且当水蒸气体积分数减小时，两侧压力较为均匀。水平供应六孔结构在当前模型设置下具有最均匀的流量供应效果，而密度的分析则指出，水蒸气体积分数降低会显著增加水平供应结构下的出口含水量。本研究给出了进行相关加湿设备设计及蒸汽沿程出流管路研究的参考，提供了蒸汽沿程多孔出流场景相关的理论依据。

关键词: 中央空调, 水加湿, 两相流, 多孔管路, 数值模拟

Abstract: Due to the issues of large-scale central-air-conditioning water humidification systems, such as operational difficulty under high loads, uneven humidification, and easy fogging, numerical simulations were performed using the FLUENT software. Models were established for vertical and horizontal supply pipes connected to the multioutlet pipes for studying flow discharge along the route (five-hole configuration vs. symmetrically distributed six-hole configuration) in large central-air-conditioning water humidification systems. Based on the volume of fluid model, the transport characteristics of wet steam in these configurations were investigated. The pressure, flow velocity, and density distributions of the steam along the pipe at different volume fractions were analyzed, and the uniformity of steam outflow under different operating conditions was studied. The results showed that in the vertical supply pipe, pressure gradually increased from the inlet to the end, whereas in the horizontal supply pipe, pressure was high at the inlet and low on both sides of pipe; moreover, as the volumetric fraction of the steam decreased, the pressure became more uniform on both sides. The six-hole horizontal supply configuration achieved the most uniform flow distribution under the current model settings. Density analysis revealed that decreasing the steam volumetric fraction significantly increased the outlet moisture content in the horizontal supply system. This study provides a reference for the design of water humidification equipment and research on along-the-route steam outflow in a multioutlet pipe, offering a theoretical basis for related multiphase outflow scenarios paths.

Key words: Central air conditioning, water humidification system, two-phase flow, multioutlet pipe, numerical simulation

中图分类号:

TK124

王吉平, 廖克存, 陈国富, 曹凯, 孟光范. 大型中央空调水加湿系统多孔分配管路流动均匀性优化研究[J]. 山东科学, 0, (): 1-.

WANG Jiping, LIAO Kecun, CHEN Guofu, CAO Kai, MENG Guangfan. Optimization of flow uniformity in multioutlet pipes for large-scale Central-Air-Conditioning water humidification systems[J]. Shandong Science, 0, (): 1-.

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大型中央空调水加湿系统多孔分配管路流动均匀性优化研究

Optimization of flow uniformity in multioutlet pipes for large-scale Central-Air-Conditioning water humidification systems

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